/********************************************************************************* - Contact: Brigitte Cheynis b.cheynis@ipnl.in2p3.fr - Link: http - Raw data test file : /afs/cern.ch/user/c/cheynis/public/run546.dat - Reference run number : 6360 - Run Type: PHYSICS - DA Type: LDC - Number of events needed: >=100 - Input Files: argument list - Output Files: local files V00Log.txt, VZERO_Histos.root, V0_Ped_Width_Gain.dat FXS file V0_Ped_Width_Gain.dat - Trigger types used: PHYSICS_EVENT **********************************************************************************/ /********************************************************************************** * * * VZERO Detector Algorithm used for extracting calibration parameters * * * * This program reads the DDL data file passed as argument using the monitoring * * library. * * It computes calibration parameters, populates local "./V0_Ped_Width_Gain.dat" * * file and exports it to the FES. * * We have 128 channels instead of 64 as expected for V0 due to the two sets of * * charge integrators which are used by the FEE ... * * The program reports about its processing progress. * * * ***********************************************************************************/ // DATE #include "event.h" #include "monitor.h" #include "daqDA.h" //AliRoot #include #include #include #include // standard #include #include //ROOT #include "TROOT.h" #include "TPluginManager.h" #include #include #include /* Main routine --- Arguments: list of DATE raw data files */ int main(int argc, char **argv) { /* magic line from Cvetan */ gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo", "*", "TStreamerInfo", "RIO", "TStreamerInfo()"); int status; // printf(" argc = %d, argv = %s \n",argc, &(**argv)); Int_t kHighCut = 50; // high cut on pedestal distribution - to be tuned Int_t kLowCut = 30; // low cut on signal distribution - to be tuned Double_t ADCmean[128]; Double_t PEDmean[128]; Double_t PEDsigma[128]; //___________________________________________________ // Book HISTOGRAMS - dynamics of p-p collisions - char ADCname[6]; char PEDname[6]; TH1F *hADCname[128]; TH1F *hPEDname[128]; char texte[12]; for (Int_t i=0; i<128; i++) { sprintf(ADCname,"hADC%d",i); sprintf(texte,"ADC cell%d",i); hADCname[i] = new TH1F(ADCname,texte,1024,0,1023); sprintf(PEDname,"hPED%d",i); sprintf(texte,"PED cell%d",i); hPEDname[i] = new TH1F(PEDname,texte,1024,0,1023);} //___________________________________________________ /* log start of process */ printf("VZERO DA program started\n"); /* check that we got some arguments = list of files */ if (argc<2) { printf("Wrong number of arguments\n"); return -1;} /* open result file to be exported to FES */ FILE *fp=NULL; fp=fopen("./V0_Ped_Width_Gain.dat","a"); if (fp==NULL) { printf("Failed to open result file\n"); return -1;} /* open log file to inform user */ FILE *flog=NULL; flog=fopen("./V00log.txt","a"); if (flog==NULL) { printf("Failed to open log file\n"); return -1; } /* report progress */ daqDA_progressReport(10); /* init counters on events */ int nevents_physics=0; int nevents_total=0; /* read the data files, considering n files */ int n; for (n=1;neventType; switch (event->eventType){ case START_OF_RUN: break; case END_OF_RUN: printf("End Of Run detected\n"); break; case PHYSICS_EVENT: nevents_physics++; fprintf(flog,"Run #%lu, event size: %lu, BC:%u, Orbit:%u, Period:%u\n", (unsigned long)event->eventRunNb, (unsigned long)event->eventSize, EVENT_ID_GET_BUNCH_CROSSING(event->eventId), EVENT_ID_GET_ORBIT(event->eventId), EVENT_ID_GET_PERIOD(event->eventId) ); AliRawReader *rawReader = new AliRawReaderDate((void*)event); AliVZERORawStream* rawStream = new AliVZERORawStream(rawReader); rawStream->Next(); for(Int_t i=0; i<64; i++) { if(!rawStream->GetIntegratorFlag(i,10)) hADCname[i]->Fill(float(rawStream->GetADC(i))); // even integrator - fills 0 to 63 else hADCname[i+64]->Fill(float(rawStream->GetADC(i))); // odd integrator - fills 64 to 123 for(Int_t j=0; j<21; j++) { if(j==10) continue; if(!rawStream->GetIntegratorFlag(i,j)) { hPEDname[i]->Fill(float(rawStream->GetPedestal(i,j))); } // even integrator else { hPEDname[i+64]->Fill(float(rawStream->GetPedestal(i,j))); } // odd integrator } } delete rawStream; rawStream = 0x0; delete rawReader; rawReader = 0x0; } // end of switch on event type nevents_total++; /* free resources */ free(event); } // loop over events } // loop over data files //________________________________________________________________________ // Computes mean values, dumps them into the output text file for(Int_t i=0; i<128; i++) { hPEDname[i]->GetXaxis()->SetRange(0,kHighCut); PEDmean[i] = hPEDname[i]->GetMean(); PEDsigma[i] = hPEDname[i]->GetRMS(); hADCname[i]->GetXaxis()->SetRange(kLowCut,1023); ADCmean[i] = hADCname[i]->GetMean() ; fprintf(fp," %.3f %.3f %.3f\n",PEDmean[i],PEDsigma[i],ADCmean[i]); } //________________________________________________________________________ // Write root file with histos for users further check - just in case - TFile *histoFile = new TFile("VZERO_histos.root","RECREATE"); for (Int_t i=0; i<128; i++) { hADCname[i]->GetXaxis()->SetRange(0,1023); hADCname[i]->Write(); hPEDname[i]->Write(); } histoFile->Close(); delete histoFile; //________________________________________________________________________ /* write report */ fprintf(flog,"Run #%s, received %d physics events out of %d\n",getenv("DATE_RUN_NUMBER"),nevents_physics,nevents_total); printf("Run #%s, received %d physics events out of %d\n",getenv("DATE_RUN_NUMBER"),nevents_physics,nevents_total); /* close result and log files */ fclose(fp); fclose(flog); /* report progress */ daqDA_progressReport(90); /* export result file to FES */ status=daqDA_FES_storeFile("./V0_Ped_Width_Gain.dat","V00da_results"); if (status) { printf("Failed to export file : %d\n",status); return -1; } /* report progress */ daqDA_progressReport(100); return status; }